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Rocket-powered aircraft

January 01, 1970

Not to be confused with Spaceplane.
"Rocketplane" redirects here. For the company, see Rocketplane Global Inc.

A rocket-powered aircraft or rocket plane is an aircraft that uses a rocket engine for propulsion, sometimes in addition to airbreathing jet engines. Rocket planes can achieve much higher speeds than similarly sized jet aircraft, but typically for at most a few minutes of powered operation, followed by a gliding flight. Unhindered by the need for oxygen from the atmosphere, they are suitable for very high-altitude flight. They are also capable of delivering much higher acceleration and shorter takeoffs. Many rocket aircraft may be drop launched from transport planes, as take-off from ground may leave them with insufficient time to reach high altitudes.

Messerschmitt Me 163 Komet, the only operational rocket-powered fighter aircraft

Rockets have been used simply to assist the main propulsion in the form of jet assisted take off (JATO) also known as rocket assisted take off (RATO or RATOG). Not all rocket planes are of the conventional takeoff like "normal" aircraft. Some types have been air-launched from another plane, while other types have taken off vertically – nose in the air and tail to the ground ("tail-sitters").

Because of the use of heavy propellants and other practical difficulties of operating rockets, the majority of rocket planes have been built for experimental or research use, as interceptor fighters and space aircraft.

History edit

Background edit

 
Pedro Paulet's Avión Torpedo of 1902, featuring a canopy fixed to a delta tiltwing for horizontal or vertical flight.

Peruvian polymath Pedro Paulet conceptualized the Avión Torpedo in 1902 – a liquid-propellant rocket-powered aircraft that featured a canopy fixed to a delta tiltwing – spending decades seeking donors for the aircraft while serving as a diplomat in Europe and Latin America.[1] Paulet's concept of using liquid-propellant was decades ahead of rocket engineers at the time who utilized black powder as a propellant.[1] Reports of Paulet's rocket aircraft concept first appeared in 1927 after Charles Lindbergh crossed the Atlantic Ocean in an aircraft.[2] Paulet publicly criticized Austrian rocket pioneer Max Valier's proposal about a rocket-powered aircraft completing the journey faster using black powder, arguing that his liquid-propellant rocket aircraft from thirty years earlier would be a better option.[2]

Paulet would go on to visit the German rocket association Verein für Raumschiffahrt (VfR) and on March 15, 1928, Valier applauded Paulet's liquid-propelled rocket design in the VfR publication Die Rakete, saying the engine had "amazing power".[3] In May 1928, Paulet was present to observe the demonstration of a rocket car of the Opel RAK program of Fritz von Opel and Max Valier, and after meeting with the German rocket enthusiasts.[3] VfR members began to view black powder as a hindrance for rocket propulsion, with Valier himself believing that Paulet's engine was necessary for future rocket development.[3] Paulet would soon be approached by Nazi Germany to help develop rocket technology, though he refused to assist and never shared the formula for his propellant.[1] The Nazi government would then appropriate Paulet's work while a Soviet spy in the VfR, Alexander Boris Scherchevsky, possibly shared plans with the Soviet Union.[4]

 
Opel RAK.1 - World's first public manned flight of a rocket plane on September 30, 1929.

On 11 June 1928, as part of the Opel RAK program of Fritz von Opel and Max Valier, Lippisch Ente became the first aircraft to fly under rocket power.[5][6][7] During the following year, the Opel RAK.1 became the first purpose-built rocket plane to fly with Fritz von Opel himself as the pilot.[8] The Opel RAK.1 flight is also considered the world's first public flight of a manned rocket plane since it took place before a large crowd and with world media in attendance.

On 28 June 1931, another ground-breaking rocket flight was conducted by the Italian aviator and inventor Ettore Cattaneo, who created another privately built rocket plane. It flew and landed without particular problems. Following this flight, the King of Italy Victor Emmanuel III appointed Cattaneo count of Taliedo; due to his pioneering role in rocket flight, his likeness is displayed in the Space Museum of Saint Petersburg as well as in the Museum of Science and Tech of Milan.[9][10]

World War II edit

The Heinkel He 176 was the world's first aircraft to be propelled solely by a liquid-propellant rocket engine. It performed its first powered flight on 20 June 1939 with Erich Warsitz at the controls.[11][page needed] The He 176, while demonstrated to the Reich Air Ministry did not attract much official support, leading to Heinkel abandoning its rocket propulsion endeavours; the sole aircraft was briefly displayed at the Berlin Air Museum and was destroyed by an Allied bombing raid in 1943.[12]

The first rocket plane ever to be mass-produced was the Messerschmitt Me 163 Komet interceptor, introduced by Germany towards the final years of the conflict as one of several efforts to develop effective rocket-powered aircraft.[13] The Luftwaffe's first dedicated Me 163 fighter wing, Jagdgeschwader 400 (JG 400) was established in 1944, and was principally tasked with providing additional protection for the manufacturing plants producing synthetic gasoline, which were prominent targets for Allied air raids. It was planned to station further defensive units of rocket fighters around Berlin, the Ruhr and the German Bight.[14]

A typical Me 163 tactic was to fly vertically upward through the bombers at 9,000 m (30,000 ft), climb to 10,700–12,000 m (35,100–39,400 ft), then dive through the formation again, firing as they went. This approach afforded the pilot two brief chances to fire a few rounds from his cannons before gliding back to his airfield.[15] It was often difficult to supply the needed fuel for operating the rocket motors. In the final days of the Third Reich, the Me 163 was withdrawn in favor of the more successful Messerschmitt Me 262, which used jet propulsion instead.[15]

Other German rocket-powered aircraft were pursued as well, including the Bachem Ba 349 "Natter", a vertical takeoff manned rocket interceptor aircraft that flew in prototype form.[16][17] Further projects never even reached the prototype stage, such as the Zeppelin Rammer, the Fliegende Panzerfaust and the Focke-Wulf Volksjäger. Having a much larger size than any other rocket-powered endeavor of the conflict, the Silbervogel antipodal bomber spaceplane was planned by the Germans, however, later calculations showed that design would not have worked, instead being destroyed during reentry.[18][page needed] The Me 163 Komet is the only type of rocket-powered fighter to see combat in history, and one of only two types of rocket-powered aircraft seeing any combat.

 
A Yokosuka MXY-7 Ohka replica at the Yasukuni Shrine Yūshūkan war museum

Japan, who was allied to Nazi Germany, secured the design schematics of the Me 163 Komet.[19] After considerable effort, it successfully established its own production capability, which was used to produce a limited number of its own copies, known as the Mitsubishi J8M, which performed its first powered flight on 7 July 1945.[20] Furthermore, Japan attempted to develop its own domestically designed rocket-powered interceptor, the Mizuno Shinryu; neither the J8M or the Shinryu ever saw combat.[21] The Japanese also produced approximately 850 Yokosuka MXY-7 Ohka rocket-powered suicide attack aircraft during the Second World War, a number were deployed in the Battle of Okinawa. Postwar analysis concluded that the Ohka's impact was negligible, and that no U.S. Navy capital ships had been hit during the attacks due to the effective defensive tactics that were employed.[22]

Other experimental aircraft included the Soviet Bereznyak-Isayev BI-1 that flew in 1942 while the Northrop XP-79 was originally planned with rocket engines but switched to jet engines for its first and only flight in 1945. A rocket assisted P-51D Mustang was developed by North American Aviation that could attain 515 mph (829 km/h).[23][24] The engine ran on fumaric acid and aniline which was stored in two 75-US-gallon (280 L) under wing drop tanks.[24] The plane was tested in flight in April 1945. The rocket engine could run for about a minute.[24] Similarly, the Messerschmitt Me 262 "Heimatschützer" series used a combination of rocket and jet propulsion to allow for shorter take-offs, faster climb rate, and even greater speeds.[25]

Cold War era edit

 
The X-15's XLR99 rocket engine used ammonia and liquid oxygen.
 
The Lockheed NF-104A had rocket and air-breathing turbojet engines, shown here climbing with rocket power. The rocket used hydrogen peroxide and JP-4 jet fuel.

During 1946, the Soviet Mikoyan-Gurevich I-270 was constructed in response to a Soviet Air Forces requirement issued during the previous year for a rocket-powered interceptor aircraft in the point-defence role.[26] The design of the I-270 incorporated several pieces of technology that had been developed by Sergei Korolev between 1932 and 1943.[27][28]

During 1947, a key milestone in aviation history was reached by the rocket-powered Bell X-1, which became the first aircraft to break the speed of sound in level flight, and would be the first of a series of NACA/NASA rocket-powered aircraft.[29] Amongst these experimental aircraft were the North American X-15 and X-15A2 designs, which were operated for around a decade and eventually attained a maximum speed of Mach 6.7 as well as a peak altitude in excess of 100 km, setting new records in the process.[30]

During the 1950s, the British developed several mixed power designs to cover the performance gap that existed in then-current turbojet designs. The rocket was the main engine for delivering the speed and height required for high speed interception of high level bombers and the turbojet gave increased fuel economy in other parts of flight, most notably to ensure that the aircraft was able to make a powered landing rather than risking an unpredictable gliding return.[31][32] One design was the Avro 720, which was primarily propelled by an 8,000 lbf (36 kN) Armstrong Siddeley Screamer rocket engine that ran on kerosene fuel mixed with liquid oxygen as the oxidizing agent.[33] Work on the Avro 720 was abandoned shortly after the Air Ministry's decision to terminate development of the Screamer rocket engine, allegedly due to official concerns regarding the practicality of using liquid oxygen, which boils at -183 °C (90 K) and is a fire hazard, within an operational environment.[34][35][36]

Work reached a more advanced stage with the Avro 720's rival, the Saunders-Roe SR.53. The propulsion system of this aircraft used hydrogen peroxide as a combined fuel and oxidiser, which was viewed as less problematic than the Avro 720's liquid oxygen.[34] On 16 May 1957, Squadron Leader John Booth DFC was at the controls of XD145 for the first test flight, following up with the maiden flight of the second prototype XD151, on 6 December 1957.[37][38] During the subsequent flight test programme, these two prototypes flew 56 separate test flights, during which a maximum speed of Mach 1.33 was recorded.[39] Furthermore, since late 1953, Saunders-Roe had worked upon a derivative of the SR.53, which was separately designated as the SR.177; the principal change was the presence of an onboard radar, lacking on the SR.53 and the Avro 720 as it not being a requirement of the specification, but left the pilot dependent on his own vision other than radio-based directions supplied from ground-based radar control.[40]

Both the SR.53 and its SR.177 cousin were relatively close to attain production status when wider political factors bore down upon the programme. During 1957, a massive re-thinking of air defence philosophy in Britain occurred, which was embodied in the 1957 Defence White Paper. This paper called for manned combat aircraft to be replaced by missiles, and thus the prospects of an order from the RAF evaporated overnight.[41] While both the Royal Navy and Germany remained potential customers for the SR.177, the confidence of both parties was shaken by the move.[42] Further factors, such as the Lockheed bribery scandals to compel overseas nations to order the Lockheed F-104 Starfighter, also served to undermine the sale prospects of the SR.177, costing potential customers such as Germany and Japan.[43]

Throughout the late 1940s and 1950s, the French Air Staff also had considerable interest in rocket-powered aircraft.[44] According to author Michel van Pelt, French Air Force officials were against a pure rocket-powered flight but favoured a mixed-propulsion approach, using a combination of rocket and turbojet engines. While the Société d'Etudes pour la Propulsion par Réaction (SEPR) set about developing France's own domestic rocket engines, the French aircraft manufacturer SNCASE was aware of the French Air Force's keenness for a capable point defence interceptor aircraft, and thus begun work on the SNCASE SE.212 Durandal.[44] In comparison to other French mixed-power experimental aircraft, such as the competing SNCASO Trident prototype interceptor, it was a heavier aircraft, intended to fly primarily on its jet engine rather than its rocket motor.[45] A pair of prototype aircraft were constructed; on 20 April 1956, the first performed its maiden flight, initially flying only using jet power.[46] It was the second prototype that first made use of the rocket motor during April 1957.[46] During flight testing, a maximum speed of 1,444 kilometres per hour (897 mph) was attained at an altitude of12,300 metres (40,400 ft), even without using the extra power of the rocket motor; this rose to 1667 km/h at 11,800 m while the rocket was active. A total of 45 test flights were performed prior to work on the programme being terminated.[46]

 
A SNCASO Trident on static display

At the request of the French Air Staff, the French aircraft company SNCASO also developed its own point defence interceptor, the SNCASO Trident.[44] It was primarily powered by a single SEPR-built rocket engine and augmented with a set of wing-tip mounted turbojet engines; operationally, both rocket and turbojet engines were to be used to perform a rapid climb and interception at high altitudes, while the jet engines alone would be used to return to base.[44] On 2 March 1953, the first prototype Trident I conducted the type's maiden flight; flown by test pilot Jacques Guignard, the aircraft used the entire length of the runway to get airborne, being powered only by its turbojet engines.[47] On 1 September 1953, second Trident I prototype crashed during its first flight after struggling to gain altitude after takeoff and colliding with an electricity pylon.[48] Despite the loss, the French Air Force were impressed by the Trident's performance and were keen to have an improved model into service.[49] On 21 May 1957, the first Trident II, 001, was destroyed during a test flight out of Centre d'Essais en Vol (Flight Test Center); caused when highly volatile rocket fuel and oxidiser, Furaline (C13H12N2O) and Nitric acid (HNO3) respectively, accidentally mixed and exploded, resulting in the death of test pilot Charles Goujon.[50][51] Two months later, all work was halted on the programme.[47]

The advancement of the turbojet engine output, the advent of missiles, and advances in radar had made a return to mixed power unnecessary.

 
The Martin Aircraft Company X-24 lifting body built as part of a 1963 to 1975 experimental US military program

The development of Soviet rockets and satellites was the driving force behind the development of NASA's space program. In the early 1960s, American research into the Boeing X-20 Dyna-Soar spaceplane was cancelled due to lack of purpose; later the studies contributed to the Space Shuttle, which in turn motivated the Soviet Buran. Another similar program was ISINGLASS which was to be a rocket plane launched from a Boeing B-52 Stratofortress carrier, which was intended to achieve Mach 22, but this was never funded. ISINGLASS was intended to overfly the USSR. No images of the vehicle configuration have been released.[52]

The Lunar Landing Research Vehicle was a mixed powered vehicle- a jet engine cancelled 5/6 of the force due to gravity, and the rocket power was able to simulate the Apollo lunar lander.[53]

Various versions of the Reaction Motors XLR11 rocket engine powered the X-1 and X-15, but also the Martin Marietta X-24A, Martin Marietta X-24B, Northrop HL-10, Northrop M2-F2, Northrop M2-F3, and the Republic XF-91 Thunderceptor, either as a primary or auxiliary engine.

The Northrop HL-10, Northrop M2-F2 and Northrop M2-F3 were examples of a lifting body, which are aircraft which have very little if any wing and simply obtain lift from the body of the vehicle. Another example is backslider rockets in amateur rocketry.[citation needed]

Post Cold War era edit

 
EZ-Rocket research aircraft

The EZ-Rocket research and test airplane was first flown in 2001.[54] After evaluating the EZ-Rocket, the Rocket Racing League developed three separate rocket racer aircraft over the following decade.[55][56]

During 2003, another privately developed rocket-powered aircraft performed its first flight. SpaceShipOne functions both as a rocket-powered aircraft—with wings and aerodynamic control surfaces—as well as a spaceplane—with RCS thrusters for control in the vacuum of space. For their work, the SpaceShipOne team were awarded the Space Achievement Award.[57]

In April 2019, the Chinese company Space Transportation carried out a test of a 3,700-kilogram technology demonstrator named Jiageng-1. The 8.7-meter-long plane has a wingspan of 2.5 meters and it is a part of development of the larger, future Tianxing-I-1 vertical takeoff, horizontal landing reusable launch vehicle.[58]

Planned rocket-powered aircraft edit

See also edit

References edit

Citations edit

  1. ^ a b c "El peruano que se convirtió en el padre de la astronáutica inspirado por Julio Verne y que aparece en los nuevos billetes de 100 soles". BBC News (in Spanish). Retrieved 2022-03-11.
  2. ^ a b Mejía 2017, pp. 113.
  3. ^ a b c Mejía 2017, pp. 115–116.
  4. ^ "Un documental reivindicará al peruano Paulet como pionero de la astronáutica". EFE (in Spanish). 2012-04-05. Retrieved 2022-03-11.
  5. ^ https://www.airforcemag.com/article/0904rocket/ article by Walter J. Boyne in Air Force Magazine, September 1, 2004
  6. ^ "Lippisch Ente."[permanent dead link] The Internet Encyclopedia of Science: Experimental Aircraft. Retrieved: 26 September 2011.
  7. ^ Ford 2013, p. 224.
  8. ^ Houard, Georges (10 October 1929). "Le planeur à fusée de Fritz von Opel a volé à Francfort sur deux kilomètres". Les Ailes. 9 (434): 11. Retrieved 25 July 2019.
  9. ^ . archiviostorico.corriere.it. 2004. Archived from the original on 2015-11-22.
  10. ^ "June the 28th 1931 First Rocket Flight in Milan by Ettore Cattaneo.avi". youtube.com. Retrieved 6 December 2020.
  11. ^ Warsitz, Lutz. The First Jet Pilot: The Story of German Test Pilot Erich Warsitz. London: Pen and Sword Books Ltd., 2009. ISBN 978-1-84415-818-8.[page needed]
  12. ^ Tuttle, Jim. Eject! The Complete History of U.S. Aircraft Escape Systems. St. Paul, Minnesota: MBI Publishing Company, 2002. ISBN 0-7603-1185-4.
  13. ^ "The Messerschmitt Me-163 Komet." 20 July 2016 at the Wayback Machine plane-crazy.net. Retrieved: 26 September 2011.
  14. ^ Galland 1957, p. 251.
  15. ^ a b Späte 1989, p. 252.
  16. ^ Lommel 1998, p. 92.
  17. ^ Bachem 1952, pp. 89–96.
  18. ^ Parsons, Zach. My Tank is Fight. London: Citadel, 2006. ISBN 978-0-8065-2758-1.[page needed]
  19. ^ Green 1971, p. 114.
  20. ^ Green 1971, p. 123.
  21. ^ Dyer 2009, pp. 40–42.
  22. ^ Kightly, James. "Yokosuka Ohka Kamikaze Pilot." Aeroplane, Volume 39, No. 7, Issue no. 459, July 2011, pp. 30–31.
  23. ^ Larry Davis – DEVELOPING THE XP-86 2012-02-09 at the Wayback Machine
  24. ^ a b c Santiago – The Rocket-Boosted P-51 Mustang – Tuesday, December 28, 2010
  25. ^ Reddin, Shamus http://www.walterwerke.co.uk/ato/me262i.htm Me.262 Heimatschützer I. The Walter 109-509.S1 Assisted Take-Off Unit. "The Hellmuth Walter Rocket Motor Web Site" Retrieved: 2 February 2022
  26. ^ Belyakov, R. A.; Marmain, J. (1994). MiG : fifty years of secret aircraft design. Shrewsbury, UK: Airlife. pp. 110–112. ISBN 1-85310-488-4.
  27. ^ Bille and Lishock 2004, p. 9.
  28. ^
  29. ^ "Bell X-1." 2008-05-17 at the Wayback Machine allstar.fiu.edu. Retrieved: 26 September 2011.
  30. ^ "North American X-15 High-Speed Research Aircraft." Aerospaceweb.org, 24 November 2008.
  31. ^ Jones Aeroplane Monthly November 1994, pp. 32–33.
  32. ^ Wood 1975, p. 55.
  33. ^ Mason 1992, p. 400.
  34. ^ a b London 2010, p. 30.
  35. ^ Flight 24 May 1957, pp. 698–699.
  36. ^ Wood 1975, p. 61.
  37. ^ London 2010, p. 31.
  38. ^ Wood 1975, p. 63.
  39. ^ London 2010, p. 34.
  40. ^ Wood 1975, p. 57.
  41. ^ Wood 1975, pp. 68-69.
  42. ^ Wood 1975, p. 69.
  43. ^ Wood 1986, pp. 67–69.
  44. ^ a b c d Pelt 2012, p. 168.
  45. ^ Pelt 2012, pp. 163-164.
  46. ^ a b c Pelt 2012, p. 164.
  47. ^ a b Gunston 1981, pp. 218–219.
  48. ^ Pelt 2012, p. 161.
  49. ^ Pelt 2012, pp. 161–162.
  50. ^ Jackson 1986, p. 91.
  51. ^ "The Paris Show..." Flight, 31 May 1957. p. 740. Retrieved: 15 October 2010.
  52. ^ Day, Dwayne. "A bat outta Hell: the ISINGLASS Mach 22 follow-on to OXCART." The Space Review, 12 April 2010. Retrieved: 26 September 2011.
  53. ^ Matranga, Gene J., C. Wayne Ottinger and Calvin R. Jarvis with C. Christian Gelzer. "Aerospace History #35 NASA SP-2004-4535: Unconventional, Contrary, and Ugly: The Lunar Landing Research Vehicle." NASA, 2005.
  54. ^ Knapp, Alex (18 June 2014). "Bootstrapping To The Stars". Forbes. Retrieved 19 June 2014.
  55. ^ "Flying inside the groove: the latest rocket-powered test aircraft take just four seconds to get into the air from ignition. The brink of take-off for the RRL". Aerospace Testing International. June 2010. pp. 50–54. Retrieved 6 September 2010.
  56. ^ Chow, Denise (26 April 2010). "Rocket Racing League Unveils New Flying Hot Rod". space.com.
  57. ^ . Archived from the original on 3 February 2009. Retrieved 31 January 2012.
  58. ^ Jones, Andrew (26 April 2019). "Chinese firms Space Transportation and Linkspace test reusable launcher technologies". spacenews.com.

Bibliography edit

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  • Bille, Matt and Erika Lishock. The First Space Race: Launching the World's First Satellites. College Station, Texas: Texas A&M University Press, 2004. ISBN 978-1-58544-374-1.
  • "Cancelled Projects:The list Up-Dated". Flight, 17 August 1967, p. 262.
  • Caidin, Martin. Wings into Space: The History and Future of Winged Space Flight. New York: Holt, Rinehart and Winston Inc., 1964.
  • Dornberger, Walter R. "The Rocket-Propelled Commercial Airliner". Dyna-Soar: Hypersonic Strategic Weapons System, Research Report No 135.. Minneapolis, Minnesota: University of Minnesota, Institute of Technology, 1956.
  • Dyer, Edwin M. III (2009). Japanese Secret Projects:Experimental aircraft of the IJA and IJN 1939–1945 (1st ed.). Hinkley: Midland publishing. pp. 40–42. ISBN 978-1-85780-317-4.
  • Ford, Roger (2013). Germany's Secret Weapons of World War II. London, United Kingdom: Amber Books. p. 224. ISBN 9781909160569.
  • Galland, Adolf. The First and the Last. New York: Ballantine Books, 1957.
  • Geiger, Clarence J. History of the X-20A Dyna-Soar. Vol. 1: AFSC Historical Publications Series 63-50-I, Document ID ASD-TR-63-50-I. Wright-Patterson AFB, Ohio: Aeronautical Systems Division Information Office, 1963.
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  • Green, William (1971). Rocket Fighter. Ballantine's Illustrated History of World War II, Weapons Book No. 20. New York: Ballantine Books. ISBN 0-345-02163-0.
  • Gunston, Bill. Fighters of the Fifties. Cambridge, England: Patrick Stephens Limited, 1981. ISBN 0-85059-463-4.
  • Jackson, A. J. Avro Aircraft since 1908. London:Putnam, 1990. ISBN 0-85177-834-8.
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  • Jones, Barry. "Saro's Mixed-Power Saga". Aeroplane Monthly, November 1994. London:IPC. ISSN 0143-7240. pp. 32–39.
  • Lommel, Horst. Der erste bemannte Raketenstart der Welt (2nd ed.) (in German). Stuttgart: Motorbuch Verlag, 1998. ISBN 3-613-01862-4.
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  • Mejía, Álvaro (2017). "Pedro Paulet, sabio multidisciplinario". Persona & Cultura (in Spanish) (14). Universidad Católica San Pablo: 95–122.
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External links edit

 
Wikimedia Commons has media related to Aircraft with rocket engines.
  • The official Erich Warsitz website (world’s first jet pilot) about the world’s first liquid-fuelled rocket aircraft, the legendary Heinkel He 176

January 01, 1970
rocket, powered, aircraft, confused, with, spaceplane, rocketplane, redirects, here, company, rocketplane, global, rocket, powered, aircraft, rocket, plane, aircraft, that, uses, rocket, engine, propulsion, sometimes, addition, airbreathing, engines, rocket, p. Not to be confused with Spaceplane Rocketplane redirects here For the company see Rocketplane Global Inc A rocket powered aircraft or rocket plane is an aircraft that uses a rocket engine for propulsion sometimes in addition to airbreathing jet engines Rocket planes can achieve much higher speeds than similarly sized jet aircraft but typically for at most a few minutes of powered operation followed by a gliding flight Unhindered by the need for oxygen from the atmosphere they are suitable for very high altitude flight They are also capable of delivering much higher acceleration and shorter takeoffs Many rocket aircraft may be drop launched from transport planes as take off from ground may leave them with insufficient time to reach high altitudes Messerschmitt Me 163 Komet the only operational rocket powered fighter aircraft Rockets have been used simply to assist the main propulsion in the form of jet assisted take off JATO also known as rocket assisted take off RATO or RATOG Not all rocket planes are of the conventional takeoff like normal aircraft Some types have been air launched from another plane while other types have taken off vertically nose in the air and tail to the ground tail sitters Because of the use of heavy propellants and other practical difficulties of operating rockets the majority of rocket planes have been built for experimental or research use as interceptor fighters and space aircraft Contents 1 History 1 1 Background 1 2 World War II 1 3 Cold War era 1 4 Post Cold War era 1 4 1 Planned rocket powered aircraft 2 See also 3 References 3 1 Citations 3 2 Bibliography 4 External linksHistory editBackground edit nbsp Pedro Paulet s Avion Torpedo of 1902 featuring a canopy fixed to a delta tiltwing for horizontal or vertical flight Peruvian polymath Pedro Paulet conceptualized the Avion Torpedo in 1902 a liquid propellant rocket powered aircraft that featured a canopy fixed to a delta tiltwing spending decades seeking donors for the aircraft while serving as a diplomat in Europe and Latin America 1 Paulet s concept of using liquid propellant was decades ahead of rocket engineers at the time who utilized black powder as a propellant 1 Reports of Paulet s rocket aircraft concept first appeared in 1927 after Charles Lindbergh crossed the Atlantic Ocean in an aircraft 2 Paulet publicly criticized Austrian rocket pioneer Max Valier s proposal about a rocket powered aircraft completing the journey faster using black powder arguing that his liquid propellant rocket aircraft from thirty years earlier would be a better option 2 Paulet would go on to visit the German rocket association Verein fur Raumschiffahrt VfR and on March 15 1928 Valier applauded Paulet s liquid propelled rocket design in the VfR publication Die Rakete saying the engine had amazing power 3 In May 1928 Paulet was present to observe the demonstration of a rocket car of the Opel RAK program of Fritz von Opel and Max Valier and after meeting with the German rocket enthusiasts 3 VfR members began to view black powder as a hindrance for rocket propulsion with Valier himself believing that Paulet s engine was necessary for future rocket development 3 Paulet would soon be approached by Nazi Germany to help develop rocket technology though he refused to assist and never shared the formula for his propellant 1 The Nazi government would then appropriate Paulet s work while a Soviet spy in the VfR Alexander Boris Scherchevsky possibly shared plans with the Soviet Union 4 nbsp Opel RAK 1 World s first public manned flight of a rocket plane on September 30 1929 On 11 June 1928 as part of the Opel RAK program of Fritz von Opel and Max Valier Lippisch Ente became the first aircraft to fly under rocket power 5 6 7 During the following year the Opel RAK 1 became the first purpose built rocket plane to fly with Fritz von Opel himself as the pilot 8 The Opel RAK 1 flight is also considered the world s first public flight of a manned rocket plane since it took place before a large crowd and with world media in attendance On 28 June 1931 another ground breaking rocket flight was conducted by the Italian aviator and inventor Ettore Cattaneo who created another privately built rocket plane It flew and landed without particular problems Following this flight the King of Italy Victor Emmanuel III appointed Cattaneo count of Taliedo due to his pioneering role in rocket flight his likeness is displayed in the Space Museum of Saint Petersburg as well as in the Museum of Science and Tech of Milan 9 10 World War II edit The Heinkel He 176 was the world s first aircraft to be propelled solely by a liquid propellant rocket engine It performed its first powered flight on 20 June 1939 with Erich Warsitz at the controls 11 page needed The He 176 while demonstrated to the Reich Air Ministry did not attract much official support leading to Heinkel abandoning its rocket propulsion endeavours the sole aircraft was briefly displayed at the Berlin Air Museum and was destroyed by an Allied bombing raid in 1943 12 The first rocket plane ever to be mass produced was the Messerschmitt Me 163 Komet interceptor introduced by Germany towards the final years of the conflict as one of several efforts to develop effective rocket powered aircraft 13 The Luftwaffe s first dedicated Me 163 fighter wing Jagdgeschwader 400 JG 400 was established in 1944 and was principally tasked with providing additional protection for the manufacturing plants producing synthetic gasoline which were prominent targets for Allied air raids It was planned to station further defensive units of rocket fighters around Berlin the Ruhr and the German Bight 14 A typical Me 163 tactic was to fly vertically upward through the bombers at 9 000 m 30 000 ft climb to 10 700 12 000 m 35 100 39 400 ft then dive through the formation again firing as they went This approach afforded the pilot two brief chances to fire a few rounds from his cannons before gliding back to his airfield 15 It was often difficult to supply the needed fuel for operating the rocket motors In the final days of the Third Reich the Me 163 was withdrawn in favor of the more successful Messerschmitt Me 262 which used jet propulsion instead 15 Other German rocket powered aircraft were pursued as well including the Bachem Ba 349 Natter a vertical takeoff manned rocket interceptor aircraft that flew in prototype form 16 17 Further projects never even reached the prototype stage such as the Zeppelin Rammer the Fliegende Panzerfaust and the Focke Wulf Volksjager Having a much larger size than any other rocket powered endeavor of the conflict the Silbervogel antipodal bomber spaceplane was planned by the Germans however later calculations showed that design would not have worked instead being destroyed during reentry 18 page needed The Me 163 Komet is the only type of rocket powered fighter to see combat in history and one of only two types of rocket powered aircraft seeing any combat nbsp A Yokosuka MXY 7 Ohka replica at the Yasukuni Shrine Yushukan war museum Japan who was allied to Nazi Germany secured the design schematics of the Me 163 Komet 19 After considerable effort it successfully established its own production capability which was used to produce a limited number of its own copies known as the Mitsubishi J8M which performed its first powered flight on 7 July 1945 20 Furthermore Japan attempted to develop its own domestically designed rocket powered interceptor the Mizuno Shinryu neither the J8M or the Shinryu ever saw combat 21 The Japanese also produced approximately 850 Yokosuka MXY 7 Ohka rocket powered suicide attack aircraft during the Second World War a number were deployed in the Battle of Okinawa Postwar analysis concluded that the Ohka s impact was negligible and that no U S Navy capital ships had been hit during the attacks due to the effective defensive tactics that were employed 22 Other experimental aircraft included the Soviet Bereznyak Isayev BI 1 that flew in 1942 while the Northrop XP 79 was originally planned with rocket engines but switched to jet engines for its first and only flight in 1945 A rocket assisted P 51D Mustang was developed by North American Aviation that could attain 515 mph 829 km h 23 24 The engine ran on fumaric acid and aniline which was stored in two 75 US gallon 280 L under wing drop tanks 24 The plane was tested in flight in April 1945 The rocket engine could run for about a minute 24 Similarly the Messerschmitt Me 262 Heimatschutzer series used a combination of rocket and jet propulsion to allow for shorter take offs faster climb rate and even greater speeds 25 Cold War era edit nbsp The X 15 s XLR99 rocket engine used ammonia and liquid oxygen nbsp The Lockheed NF 104A had rocket and air breathing turbojet engines shown here climbing with rocket power The rocket used hydrogen peroxide and JP 4 jet fuel During 1946 the Soviet Mikoyan Gurevich I 270 was constructed in response to a Soviet Air Forces requirement issued during the previous year for a rocket powered interceptor aircraft in the point defence role 26 The design of the I 270 incorporated several pieces of technology that had been developed by Sergei Korolev between 1932 and 1943 27 28 During 1947 a key milestone in aviation history was reached by the rocket powered Bell X 1 which became the first aircraft to break the speed of sound in level flight and would be the first of a series of NACA NASA rocket powered aircraft 29 Amongst these experimental aircraft were the North American X 15 and X 15A2 designs which were operated for around a decade and eventually attained a maximum speed of Mach 6 7 as well as a peak altitude in excess of 100 km setting new records in the process 30 During the 1950s the British developed several mixed power designs to cover the performance gap that existed in then current turbojet designs The rocket was the main engine for delivering the speed and height required for high speed interception of high level bombers and the turbojet gave increased fuel economy in other parts of flight most notably to ensure that the aircraft was able to make a powered landing rather than risking an unpredictable gliding return 31 32 One design was the Avro 720 which was primarily propelled by an 8 000 lbf 36 kN Armstrong Siddeley Screamer rocket engine that ran on kerosene fuel mixed with liquid oxygen as the oxidizing agent 33 Work on the Avro 720 was abandoned shortly after the Air Ministry s decision to terminate development of the Screamer rocket engine allegedly due to official concerns regarding the practicality of using liquid oxygen which boils at 183 C 90 K and is a fire hazard within an operational environment 34 35 36 Work reached a more advanced stage with the Avro 720 s rival the Saunders Roe SR 53 The propulsion system of this aircraft used hydrogen peroxide as a combined fuel and oxidiser which was viewed as less problematic than the Avro 720 s liquid oxygen 34 On 16 May 1957 Squadron Leader John Booth DFC was at the controls of XD145 for the first test flight following up with the maiden flight of the second prototype XD151 on 6 December 1957 37 38 During the subsequent flight test programme these two prototypes flew 56 separate test flights during which a maximum speed of Mach 1 33 was recorded 39 Furthermore since late 1953 Saunders Roe had worked upon a derivative of the SR 53 which was separately designated as the SR 177 the principal change was the presence of an onboard radar lacking on the SR 53 and the Avro 720 as it not being a requirement of the specification but left the pilot dependent on his own vision other than radio based directions supplied from ground based radar control 40 Both the SR 53 and its SR 177 cousin were relatively close to attain production status when wider political factors bore down upon the programme During 1957 a massive re thinking of air defence philosophy in Britain occurred which was embodied in the 1957 Defence White Paper This paper called for manned combat aircraft to be replaced by missiles and thus the prospects of an order from the RAF evaporated overnight 41 While both the Royal Navy and Germany remained potential customers for the SR 177 the confidence of both parties was shaken by the move 42 Further factors such as the Lockheed bribery scandals to compel overseas nations to order the Lockheed F 104 Starfighter also served to undermine the sale prospects of the SR 177 costing potential customers such as Germany and Japan 43 Throughout the late 1940s and 1950s the French Air Staff also had considerable interest in rocket powered aircraft 44 According to author Michel van Pelt French Air Force officials were against a pure rocket powered flight but favoured a mixed propulsion approach using a combination of rocket and turbojet engines While the Societe d Etudes pour la Propulsion par Reaction SEPR set about developing France s own domestic rocket engines the French aircraft manufacturer SNCASE was aware of the French Air Force s keenness for a capable point defence interceptor aircraft and thus begun work on the SNCASE SE 212 Durandal 44 In comparison to other French mixed power experimental aircraft such as the competing SNCASO Trident prototype interceptor it was a heavier aircraft intended to fly primarily on its jet engine rather than its rocket motor 45 A pair of prototype aircraft were constructed on 20 April 1956 the first performed its maiden flight initially flying only using jet power 46 It was the second prototype that first made use of the rocket motor during April 1957 46 During flight testing a maximum speed of 1 444 kilometres per hour 897 mph was attained at an altitude of12 300 metres 40 400 ft even without using the extra power of the rocket motor this rose to 1667 km h at 11 800 m while the rocket was active A total of 45 test flights were performed prior to work on the programme being terminated 46 nbsp A SNCASO Trident on static display At the request of the French Air Staff the French aircraft company SNCASO also developed its own point defence interceptor the SNCASO Trident 44 It was primarily powered by a single SEPR built rocket engine and augmented with a set of wing tip mounted turbojet engines operationally both rocket and turbojet engines were to be used to perform a rapid climb and interception at high altitudes while the jet engines alone would be used to return to base 44 On 2 March 1953 the first prototype Trident I conducted the type s maiden flight flown by test pilot Jacques Guignard the aircraft used the entire length of the runway to get airborne being powered only by its turbojet engines 47 On 1 September 1953 second Trident I prototype crashed during its first flight after struggling to gain altitude after takeoff and colliding with an electricity pylon 48 Despite the loss the French Air Force were impressed by the Trident s performance and were keen to have an improved model into service 49 On 21 May 1957 the first Trident II 001 was destroyed during a test flight out of Centre d Essais en Vol Flight Test Center caused when highly volatile rocket fuel and oxidiser Furaline C13H12N2O and Nitric acid HNO3 respectively accidentally mixed and exploded resulting in the death of test pilot Charles Goujon 50 51 Two months later all work was halted on the programme 47 The advancement of the turbojet engine output the advent of missiles and advances in radar had made a return to mixed power unnecessary nbsp The Martin Aircraft Company X 24 lifting body built as part of a 1963 to 1975 experimental US military program The development of Soviet rockets and satellites was the driving force behind the development of NASA s space program In the early 1960s American research into the Boeing X 20 Dyna Soar spaceplane was cancelled due to lack of purpose later the studies contributed to the Space Shuttle which in turn motivated the Soviet Buran Another similar program was ISINGLASS which was to be a rocket plane launched from a Boeing B 52 Stratofortress carrier which was intended to achieve Mach 22 but this was never funded ISINGLASS was intended to overfly the USSR No images of the vehicle configuration have been released 52 The Lunar Landing Research Vehicle was a mixed powered vehicle a jet engine cancelled 5 6 of the force due to gravity and the rocket power was able to simulate the Apollo lunar lander 53 Various versions of the Reaction Motors XLR11 rocket engine powered the X 1 and X 15 but also the Martin Marietta X 24A Martin Marietta X 24B Northrop HL 10 Northrop M2 F2 Northrop M2 F3 and the Republic XF 91 Thunderceptor either as a primary or auxiliary engine The Northrop HL 10 Northrop M2 F2 and Northrop M2 F3 were examples of a lifting body which are aircraft which have very little if any wing and simply obtain lift from the body of the vehicle Another example is backslider rockets in amateur rocketry citation needed Post Cold War era edit nbsp EZ Rocket research aircraft The EZ Rocket research and test airplane was first flown in 2001 54 After evaluating the EZ Rocket the Rocket Racing League developed three separate rocket racer aircraft over the following decade 55 56 During 2003 another privately developed rocket powered aircraft performed its first flight SpaceShipOne functions both as a rocket powered aircraft with wings and aerodynamic control surfaces as well as a spaceplane with RCS thrusters for control in the vacuum of space For their work the SpaceShipOne team were awarded the Space Achievement Award 57 In April 2019 the Chinese company Space Transportation carried out a test of a 3 700 kilogram technology demonstrator named Jiageng 1 The 8 7 meter long plane has a wingspan of 2 5 meters and it is a part of development of the larger future Tianxing I 1 vertical takeoff horizontal landing reusable launch vehicle 58 Planned rocket powered aircraft edit Aerial Regional scale Environmental Survey Skylon spacecraft SpaceShipTwo XCOR Lynx Zero Emission Hyper Sonic TransportSee also edit nbsp Aviation portal nbsp Rocketry portal List of rocket aircraft List of vehicle speed records Rocket Racing League RRL Zero length launch launching air breathing aircraft with rocketsReferences editCitations edit a b c El peruano que se convirtio en el padre de la astronautica inspirado por Julio Verne y que aparece en los nuevos billetes de 100 soles BBC News in Spanish Retrieved 2022 03 11 a b Mejia 2017 pp 113 a b c Mejia 2017 pp 115 116 Un documental reivindicara al peruano Paulet como pionero de la astronautica EFE in Spanish 2012 04 05 Retrieved 2022 03 11 https www airforcemag com article 0904rocket article by Walter J Boyne in Air Force Magazine September 1 2004 Lippisch Ente permanent dead link The Internet Encyclopedia of Science Experimental Aircraft Retrieved 26 September 2011 Ford 2013 p 224 Houard Georges 10 October 1929 Le planeur a fusee de Fritz von Opel a vole a Francfort sur deux kilometres Les Ailes 9 434 11 Retrieved 25 July 2019 Esplora il significato del termine Cattaneo pioniere del volo incompreso in patriaCattaneo pioniere del volo incompreso in patria archiviostorico corriere it 2004 Archived from the original on 2015 11 22 June the 28th 1931 First Rocket Flight in Milan by Ettore Cattaneo avi youtube com Retrieved 6 December 2020 Warsitz Lutz The First Jet Pilot The Story of German Test Pilot Erich Warsitz London Pen and Sword Books Ltd 2009 ISBN 978 1 84415 818 8 page needed Tuttle Jim Eject The Complete History of U S Aircraft Escape Systems St Paul Minnesota MBI Publishing Company 2002 ISBN 0 7603 1185 4 The Messerschmitt Me 163 Komet Archived 20 July 2016 at the Wayback Machine plane crazy net Retrieved 26 September 2011 Galland 1957 p 251 a b Spate 1989 p 252 Lommel 1998 p 92 Bachem 1952 pp 89 96 Parsons Zach My Tank is Fight London Citadel 2006 ISBN 978 0 8065 2758 1 page needed Green 1971 p 114 Green 1971 p 123 Dyer 2009 pp 40 42 Kightly James Yokosuka Ohka Kamikaze Pilot Aeroplane Volume 39 No 7 Issue no 459 July 2011 pp 30 31 Larry Davis DEVELOPING THE XP 86 Archived 2012 02 09 at the Wayback Machine a b c Santiago The Rocket Boosted P 51 Mustang Tuesday December 28 2010 Reddin Shamus http www walterwerke co uk ato me262i htm Me 262 Heimatschutzer I The Walter 109 509 S1 Assisted Take Off Unit The Hellmuth Walter Rocket Motor Web Site Retrieved 2 February 2022 Belyakov R A Marmain J 1994 MiG fifty years of secret aircraft design Shrewsbury UK Airlife pp 110 112 ISBN 1 85310 488 4 Bille and Lishock 2004 p 9 1943 Bell X 1 Archived 2008 05 17 at the Wayback Machine allstar fiu edu Retrieved 26 September 2011 North American X 15 High Speed Research Aircraft Aerospaceweb org 24 November 2008 Jones Aeroplane Monthly November 1994 pp 32 33 Wood 1975 p 55 Mason 1992 p 400 a b London 2010 p 30 Flight 24 May 1957 pp 698 699 Wood 1975 p 61 London 2010 p 31 Wood 1975 p 63 London 2010 p 34 Wood 1975 p 57 Wood 1975 pp 68 69 Wood 1975 p 69 Wood 1986 pp 67 69 a b c d Pelt 2012 p 168 Pelt 2012 pp 163 164 a b c Pelt 2012 p 164 a b Gunston 1981 pp 218 219 Pelt 2012 p 161 Pelt 2012 pp 161 162 Jackson 1986 p 91 The Paris Show Flight 31 May 1957 p 740 Retrieved 15 October 2010 Day Dwayne A bat outta Hell the ISINGLASS Mach 22 follow on to OXCART The Space Review 12 April 2010 Retrieved 26 September 2011 Matranga Gene J C Wayne Ottinger and Calvin R Jarvis with C Christian Gelzer Aerospace History 35 NASA SP 2004 4535 Unconventional Contrary and Ugly The Lunar Landing Research Vehicle NASA 2005 Knapp Alex 18 June 2014 Bootstrapping To The Stars Forbes Retrieved 19 June 2014 Flying inside the groove the latest rocket powered test aircraft take just four seconds to get into the air from ignition The brink of take off for the RRL Aerospace Testing International June 2010 pp 50 54 Retrieved 6 September 2010 Chow Denise 26 April 2010 Rocket Racing League Unveils New Flying Hot Rod space com Symposium Awards Archived from the original on 3 February 2009 Retrieved 31 January 2012 Jones Andrew 26 April 2019 Chinese firms Space Transportation and Linkspace test reusable launcher technologies spacenews com Bibliography edit Armstrong Siddeley Screamer Flight No 2478 Vol 70 27 July 1956 pp 160 164 Bachem Erich Einige grundsatzliche Probleme des Senkrechstarts Probleme aus der Astronautischen Grundlagenforschung in German Proceedings of the Third International Congress on Astronautics Stuttgart Gesellschaft fur Weltraumforschung September 1952 Bille Matt and Erika Lishock The First Space Race Launching the World s First Satellites College Station Texas Texas A amp M University Press 2004 ISBN 978 1 58544 374 1 Cancelled Projects The list Up Dated Flight 17 August 1967 p 262 Caidin Martin Wings into Space The History and Future of Winged Space Flight New York Holt Rinehart and Winston Inc 1964 Dornberger Walter R The Rocket Propelled Commercial Airliner Dyna Soar Hypersonic Strategic Weapons System Research Report No 135 Minneapolis Minnesota University of Minnesota Institute of Technology 1956 Dyer Edwin M III 2009 Japanese Secret Projects Experimental aircraft of the IJA and IJN 1939 1945 1st ed Hinkley Midland publishing pp 40 42 ISBN 978 1 85780 317 4 Ford Roger 2013 Germany s Secret Weapons of World War II London United Kingdom Amber Books p 224 ISBN 9781909160569 Galland Adolf The First and the Last New York Ballantine Books 1957 Geiger Clarence J History of the X 20A Dyna Soar Vol 1 AFSC Historical Publications Series 63 50 I Document ID ASD TR 63 50 I Wright Patterson AFB Ohio Aeronautical Systems Division Information Office 1963 Godwin Robert ed Dyna Soar Hypersonic Strategic Weapons System Burlington ON Apogee Books 2003 ISBN 1 896522 95 5 Green William 1971 Rocket Fighter Ballantine s Illustrated History of World War II Weapons Book No 20 New York Ballantine Books ISBN 0 345 02163 0 Gunston Bill Fighters of the Fifties Cambridge England Patrick Stephens Limited 1981 ISBN 0 85059 463 4 Jackson A J Avro Aircraft since 1908 London Putnam 1990 ISBN 0 85177 834 8 Jackson Robert Combat Aircraft Prototypes since 1945 New York Arco Prentice Hall Press 1986 LCCN 85 18725 ISBN 978 0 671 61953 4 Jones Barry Saro s Mixed Power Saga Aeroplane Monthly November 1994 London IPC ISSN 0143 7240 pp 32 39 Lommel Horst Der erste bemannte Raketenstart der Welt 2nd ed in German Stuttgart Motorbuch Verlag 1998 ISBN 3 613 01862 4 London Pete Saunders Roe s Rocket Fighters Aircraft Vol 43 no 7 July 2010 Mason Francis K The British Fighter since 1912 Annapolis Maryland USA Naval Institute Press 1992 ISBN 1 55750 082 7 Mejia Alvaro 2017 Pedro Paulet sabio multidisciplinario Persona amp Cultura in Spanish 14 Universidad Catolica San Pablo 95 122 Mixed Power Interceptor Flight 24 May 1957 pp 697 700 Pelt Michel van Rocketing into the Future The History and Technology of Rocket Planes Springer Science amp Business Media 2012 ISBN 1 461 43200 6 Spate Wolfgang Top Secret Bird Luftwaffe s Me 163 Komet Missoula Montana Pictorial Histories Publishing Co 1989 ISBN 1 872836 10 0 Winchester Jim TSR 2 Concept Aircraft Prototypes X Planes and Experimental Aircraft Kent UK Grange Books plc 2005 ISBN 978 1 84013 809 2 Wood Derek Project Cancelled The Disaster of Britain s Abandoned Aircraft Projects London UK Jane s 2nd edition 1986 ISBN 0 7106 0441 6 Yenne Bill The Encyclopedia of US Spacecraft London Bison Books 1985 ISBN 978 5 551 26650 1 External links edit nbsp Wikimedia Commons has media related to Aircraft with rocket engines The official Erich Warsitz website world s first jet pilot about the world s first liquid fuelled rocket aircraft the legendary Heinkel He 176 Retrieved from https en wikipedia org w index php title Rocket powered aircraft amp oldid 1206106276, wikipedia, wiki, book, books, library,

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